DARPA was created in February 1958 as the Advanced Research Projects Agency (ARPA) by President Dwight D. Eisenhower. Its purpose was to formulate and execute research and development projects to expand the frontiers of technology and science, with the aim to reach beyond immediate military requirements.[3] The administration was created in response to the Soviet launching of Sputnik 1 in 1957, and DARPA's mission was to ensure U.S. military technology would be more sophisticated than that of the nation's potential enemies.

The name of the organization changed several times from its founding name ARPA: DARPA (March 1972), ARPA (February 1993), and DARPA (March 1996).

DARPA is independent from other military research and development and reports directly to senior Department of Defense management. DARPA has about 240 employees, of whom 13 are in management, and close to 140 are technical staff.[citation needed]

DARPA's original mission, established in 1958, was to prevent technological surprise like the launch of Sputnik, which signaled that the Soviets had beaten the U.S. into space. The mission statement has evolved over time. Today, DARPA's mission is still to prevent technological surprise to the US, but also to create technological surprise for US enemies.

The creation of the Advanced Research Projects Agency (ARPA) was authorized by President Dwight D. Eisenhower in 1958 for the purpose of forming and executing research and development projects to expand the frontiers of technology and science, and able to reach far beyond immediate military requirements,[3] the two relevant acts being the Supplemental Military Construction Authorization (Air Force)[5] (Public Law 85-325) and Department of Defense Directive 5105.15, in February 1958. Its creation was directly attributed to the launching of Sputnik and to U.S. realization that the Soviet Union had developed the capacity to rapidly exploit military technology. Initial funding of ARPA was $520 million.[6] ARPA's first director, Roy Johnson, left a $160,000 management job at General Electric for an $18,000 job at ARPA.[7]Herbert York from Lawrence Livermore National Laboratory was hired as his scientific assistant.[8]

Johnson and York were both keen on space projects, but when NASA was established later in 1958 all space projects and most of ARPA's funding were transferred to it. Johnson resigned and ARPA was repurposed to do "high-risk," "high-gain," "far out" basic research, a posture that was enthusiastically embraced by the nation's scientists and research universities.[9] ARPA's second director was Brigadier General Austin W. Betts, who resigned in early 1961. He was succeeded by Jack Ruina who served until 1963.[10] Ruina, the first scientist to administer ARPA, managed to raise its budget to $250 million.[11] It was Ruina who hired J. C. R. Licklider as the first administrator of the Information Processing Techniques Office which played a vital role in creation of the ARPANET – the basis for the future internet.[12]

Additionally, the political and defense communities recognized the need for a high-level Department of Defense organization to formulate and execute R&D projects that would expand the frontiers of technology beyond the immediate and specific requirements of the Military Services and their laboratories. In pursuit of this mission, DARPA has developed and transferred technology programs encompassing a wide range of scientific disciplines which address the full spectrum of national security needs.

ARPA at this point (1959) played an early role in Transit (also called NavSat) a predecessor to the Global Positioning System (GPS).[14] "Fast-forward to 1959 when a joint effort between DARPA and the Johns Hopkins Applied Physics Laboratory began to fine-tune the early explorers’ discoveries. TRANSIT, sponsored by the Navy and developed under the leadership of Dr. Richard Kirschner at Johns Hopkins, was the first satellite positioning system."[15][16]

During the late 1960s, with the transfer of these mature programs to the Services, ARPA redefined its role and concentrated on a diverse set of relatively small, essentially exploratory research programs. The agency was renamed the Defense Advanced Research Projects Agency (DARPA) in 1972, and during the early 1970s, it emphasized direct energy programs, information processing, and tactical technologies.

Concerning information processing, DARPA made great progress, initially through its support of the development of time-sharing (all modern operating systems rely on concepts invented for the Multics system, developed by a cooperation among Bell Labs, General Electric and MIT, which DARPA supported by funding Project MAC at MIT with an initial two-million-dollar grant).[17]

The Mansfield Amendment of 1973 expressly limited appropriations for defense research (through ARPA/DARPA) only to projects with direct military application. Some[who?] contend that the amendment devastated American science, since ARPA/DARPA was a major funding source for basic science projects of the time; the National Science Foundation never made up the difference as expected.

The resulting "brain drain" is also credited with boosting the development of the fledgling personal computer industry. Some young computer scientists left the universities to startups and private research labs such as Xerox PARC.

Between 1976 and 1981, DARPA's major projects were dominated by air, land, sea, and space technology, tactical armor and anti-armor programs, infrared sensing for space-based surveillance, high-energy laser technology for space-based missile defense, antisubmarine warfare, advanced cruise missiles, advanced aircraft, and defense applications of advanced computing. These large-scale technological program demonstrations were joined by integrated circuit research, which resulted in submicrometer electronic technology and electron devices that evolved into the Very Large Scale Integration (VLSI) Program and the Congressionally mandated charged particle beam program.

During the 1980s, the attention of the Agency was centered on information processing and aircraft-related programs, including the National Aerospace Plane (NASP) or Hypersonic Research Program. The Strategic Computing Program enabled DARPA to exploit advanced processing and networking technologies and to rebuild and strengthen relationships with universities after the Vietnam War. In addition, DARPA began to pursue new concepts for small, lightweight satellites (LIGHTSAT) and directed new programs regarding defense manufacturing, submarine technology, and armor/anti-armor.

On October 28, 2009 the agency broke ground on a new facility in Arlington, Virginia a few miles from the Pentagon.[19]

In fall 2011, DARPA hosted the 100-Year Starship Symposium with the aim of getting the public to start thinking seriously about interstellar travel.[20]

On June 5, 2016, NASA and DARPA announced that it planned to build new X-planes with NASA's plan setting to create a whole series of X planes over the next 10 years.[21]

In July 2016, it was announced that DARPA would bring a group of top-notch computer security experts to search for security vulnerabilities and create a fix that patches those vulnerabilities and it is called the Cyber Grand Challenge (CGC).[22]

The Defense Sciences Office (DSO) vigorously pursues the most promising technologies within a broad spectrum of the science and engineering research communities and develops those technologies into important, radically new military capabilities.[23]

The Microsystems Technology Office (MTO) mission focuses on the heterogeneous microchip-scale integration of electronics, photonics, and microelectromechanical systems (MEMS). Their high risk/high payoff technology is aimed at solving the national level problems of protection from biological, chemical and information attack and to provide operational dominance for mobile distributed command and control, combined manned/unmanned warfare, and dynamic, adaptive military planning and execution.

The Biological Technologies Office (BTO) fosters, demonstrates, and transitions breakthrough fundamental research, discoveries, and applications that integrate biology, engineering, and computer science for national security. Created in April 2014 by DARPA director Arati Prabhakar, taking programs from the MTO and DSO divisions.[27]

The Advanced Technology Office (ATO) researched, demonstrated, and developed high payoff projects in maritime, communications, special operations, command and control, and information assurance and survivability mission areas.[citation needed]

The Special Projects Office (SPO) researched, developed, demonstrated, and transitioned technologies focused on addressing present and emerging national challenges. SPO investments ranged from the development of enabling technologies to the demonstration of large prototype systems. SPO developed technologies to counter the emerging threat of underground facilities used for purposes ranging from command-and-control, to weapons storage and staging, to the manufacture of weapons of mass destruction. SPO developed significantly more cost-effective ways to counter proliferated, inexpensive cruise missiles, UAVs, and other platforms used for weapon delivery, jamming, and surveillance. SPO invested in novel space technologies across the spectrum of space control applications including rapid access, space situational awareness, counterspace, and persistent tactical grade sensing approaches including extremely large space apertures and structures.

A 1991 reorganization created several offices which existed throughout the early 1990s:[28]

The Electronic Systems Technology Office combined areas of the Defense Sciences Office and the Defense Manufacturing Office. This new office will focus on the boundary between general-purpose computers and the physical world, such as sensors, displays and the first few layers of specialized signal-processing that couple these modules to standard computer interfaces.

The Land Systems Office was created to develop advanced land vehicle and anti-armor systems, once the domain of the Tactical Technology Office

The Undersea Warfare Office combined areas of the Advanced Vehicle Systems and Tactical Technology offices to develop and demonstrate submarine stealth and counterstealth and automation.

Reorganization in 2010 merged two offices:

The Transformational Convergence Technology Office (TCTO) mission was to advance new crosscutting capabilities derived from a broad range of emerging technological and social trends, particularly in areas related to computing and computing-reliant subareas of the life sciences, social sciences, manufacturing, and commerce. The TCTO was folded into the I2O in 2010.[24][29]

The Adaptive Execution Office (AEO) is chartered to accelerate game-changing DARPA technologies into DoD capabilities. AEO provides the agency with robust connections to the warfighter community and assists the agency with the planning and execution of technology demonstrations and field trials to promote adoption by the warfighter.

The mission of the Biological Technologies Office (BTO) is to foster, demonstrate, and transition breakthrough fundamental research, discoveries, and applications that integrate biology, engineering, and computer science for national security. BTO seeks to establish and invest in new communities of scientific interest at the intersection of traditional and emerging disciplines. Its investment portfolio goes far beyond life sciences applications in medicine to include areas of research such as human-machine interfaces,[31] microbes as production platforms, and deep exploration of the impact of evolving ecologies and environments on U.S. readiness and capabilities. BTO’s programs operate across a wide range of scales, from individual cells to complex biological systems including mammalian and non-mammalian organisms and the macro- and micro-environments in which they operate.

The Defense Sciences Office (DSO) identifies and pursues high-risk, high-payoff fundamental research initiatives across a broad spectrum of science and engineering disciplines – sometimes reshaping existing fields or creating entirely new disciplines – and transforms these initiatives into radically new, game-changing technologies for U.S. national security. Information Innovation Office Program Managers: Wade Shen (as of December 2014), Stuart Wagner (as of September 2014), Steve Jameson (as of August 2014), Angelos Keromytis (as of July 2014), John Launchbury (as of July 2014), David Doermann (as of April 2014).

Adaptive Execution Office: AEO provides the agency with robust connections to the war fighter community and assists the agency with the planning and execution of technology demonstrations and field trials to promote adoption by the war fighter.

Phoenix: A satellite project with the aim to recycle retired satellite parts into new on-orbit assets. System launches no earlier than 2016 or 2017.[52][53]Satlet tests in low Earth orbit may occur as soon as 2015.[54]

SIGMA devices, a network of mobile devices the size of smart phones that can detect small amounts of radioactive materials. The devices are paired with larger detector devices along major roads and bridges.[59]

ARPA/DARPA is well known as a high-tech government agency, and as such has many appearances in popular fiction. Some realistic references to ARPA in fiction are in Tom Swift and the Visitor from Planet X (DARPA consults on a technical threat),[75] in episodes of television program The West Wing (the ARPA-DARPA distinction), the television program Numb3rs[76] (DARPA research into creating the first self-aware computer), and in the motion picture Executive Decision (use of a one-of-a-kind experimental prototype in an emergency).

^"Roy Johnson, ARPA’s first director, was, like his boss, a businessman. At age fifty-two, he had been personally recruited by McElroy, who convinced him to leave a $160,000 job with General Electric and take an $18,000 job in Washington." Lyon, Matthew; Hafner, Katie (1999-08-19). Where Wizards Stay Up Late: The Origins Of The Internet (p. 21). Simon & Schuster. Kindle Edition.

^"Herbert York, whom Killian had been keen on, was given the job and moved to ARPA from the Lawrence Livermore Laboratory." Lyon, Matthew; Hafner, Katie (1999-08-19). Where Wizards Stay Up Late: The Origins Of The Internet (p. 21). Simon & Schuster. Kindle Edition.

^"The staff of ARPA saw an opportunity to redefine the agency as a group that would take on the really advanced “far-out” research....The scientific community, predictably, rallied to the call for a reinvention of ARPA as a “high-risk high-gain” research sponsor— the kind of R& D shop they had dreamed of all along" Lyon, Matthew; Hafner, Katie (1999-08-19). Where Wizards Stay Up Late: The Origins Of The Internet (pp. 21,22). Simon & Schuster. Kindle Edition.

Belfiore, Michael (2009). The Department of Mad Scientists: How DARPA Is Remaking Our World, from the Internet to Artificial Limbs. Harper. ISBN9780061577932. OCLC310399265.William Saletan writes of Belfiore's book that "His tone is reverential and at times breathless, but he captures the agency’s essential virtues: boldness, creativity, agility, practicality and speed." (Saletan, William (December 24, 2009). "The Body Electric". The New York Times.)